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Lecture
Phenomenological Description of Magnetocrystalline Anisotropy
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Related lectures (32)
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Anisotropy and Hard Magnets
Explores anisotropy, hard magnets, BHmax, and rare earth elements in magnetic materials.
Magnetic Domains and Walls: Properties and Characteristics
Explores magnetic domains, domain walls, and their energy considerations in materials like iron, cobalt, and nickel.
Anisotropy and Spin-Orbit Coupling
Explores anisotropy in magnetic materials, spin-orbit coupling effects, and magnetization curves.
Quantum and Nanocomputing: Advanced Nanostructures
Explores advanced nanostructures in quantum and nanocomputing, covering domain-magnet logic, clock zones, FIB irradiation effects, and artificial nucleation centers.
Bloch vs Néel Walls: Magnetic Properties and Domain Wall Energy
Compares Bloch and Néel walls in magnetic materials, discussing energy balance and domain wall properties.
Antiferromagnetic Resonance
Explores the spin-flop transition, susceptibility, and magnetic resonance in antiferromagnets.
Domain Walls in Magnetic Materials
Explores domain walls in magnetic materials, covering energy considerations, magnetic properties of iron, cobalt, and nickel, and processes for domain reversal.
Magnetic Hysteresis: Behavior and Loops
Covers magnetic hysteresis, coercive fields, and soft magnetic materials, including the history of coercive fields and interpreting hysteresis curves.
Magnetic Anisotropy: Observations in Iron, Nickel, and Cobalt
Analyzes magnetization curves in iron, nickel, and cobalt to explain magnetic anisotropy.
Magnetoelastic Effects: Magnetostriction Coefficient
Explores magnetoelastic effects, focusing on the magnetostriction coefficient and its impact on shape change during magnetization.
